Solvent purge mechanism

ABSTRACT

Apparatus and process for solvent purging a process line of process chemical in a process chemical delivery system typically used to dispense toxic chemicals from replaceable process chemical containers in the electronic fabrication industry.

CROSS-REFERENCE TO RELATED APPLICATIONS

Not applicable.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not applicable.

BACKGROUND OF THE INVENTION

The present invention is directed to the field of process chemicaldelivery in the electronics industry and other applications requiringhigh purity chemical delivery. More specifically, the present inventionis directed to apparatus and processes for the cleaning of processchemical delivery lines, containers and associated apparatus,particularly during changeout of process chemical or process chemicalcontainers in such process chemical delivery lines.

Evacuation and gas purge of process chemical lines has been used toremove residual chemicals from delivery lines. Both vacuum draw andinert gas purge are successful in quickly removing high volatilitychemicals, but are not effective with low volatility chemicals. Safetyis a problem when extracting highly toxic materials.

Use of solvents to remove residual chemicals is not new. Various patentshave sought to clean systems using solvents.

U.S. Pat. No. 5,045,117 describes a method and apparatus for cleaningprinted wiring assemblies with a solvent and vacuum action.

U.S. Pat. No. 5,115,576 discloses an apparatus and method of cleaningsemiconductor wafers using isopropyl alcohol solvent.

Additional patents regarding solvent cleaning include; U.S. Pat. No.4,357,175, U.S. Pat. No. 4,832,753, U.S. Pat. No. 4,865,061, U.S. Pat.No. 4,871,416, U.S. Pat. No. 5,051,135, U.S. Pat. No. 5,106,404, U.S.Pat. No. 5,108,582, U.S. Pat. No. 5,240,507, U.S. Pat. No. 5,304,253,U.S. Pat. No. 5,339,844, U.S. Pat. No. 5,425,183, U.S. Pat. No.5,469,876, U.S. Pat. No. 5,509,431, U.S. Pat. No. 5,538,025, U.S. Pat.No. 5,562,883 and Japanese 8-115886.

However, the present invention simplifies the process and apparatus ofthe prior art and reduces the size and complexity of the solvent purgesystem and permits the purging of the interior volume of a process lineand also permits the solvent purge volume to be minimized, as will beset forth in greater detail below.

BRIEF SUMMARY OF THE INVENTION

The present invention is an apparatus for cleaning the interior of aprocess chemical distribution system, comprising:

a) a process line connected to a source of process chemical and adownstream process chemical use station, the process line having aprocess valve to control the passage of the process chemical through theprocess line;

b) a source of solvent capable of at least partially dissolving theprocess chemical;

c) a vent line connected to the process line, capable of receiving thesolvent and having a vent valve for controlling removal of solventthrough the vent line; and

d) a solvent delivery line connected to the source of solvent and to theprocess line, having an outlet which is coaxially aligned inside theprocess line to permit dispensing of solvent from the solvent deliveryline into the process line and having a solvent valve for controllingthe dispensing of solvent from the source of solvent through the solventdelivery line into the process line.

Preferably, the process valve is a first process valve adjacent thesource of process chemical and a second process valve adjacent theprocess chemical use station and the solvent delivery line is connectedto the process line between the first and second valve.

Preferably, a source of purge gas is controllably connected to thesolvent delivery line.

Preferably, the solvent delivery line has a first solvent valve adjacentthe source of solvent and a second solvent valve adjacent the processline and the source of purge gas is connected to the solvent deliveryline between the first and second solvent valve.

Preferably, the vent line is connected to a first source of vacuum.

Preferably, a vent storage vessel is connected to the vent line betweenthe process line connection and the first source of vacuum.

Preferably, the vent valve has upstream and downstream orifices and thevent storage vessel is controllably connected to the vent line adjacentthe upstream orifice and adjacent the downstream orifice.

Preferably, the source of solvent is connected to a source of push gasthrough a push gas valve.

Preferably, the solvent delivery line has a third solvent valve betweenthe first solvent valve and the source of solvent.

Preferably, a second source of vacuum is connected to the solventdelivery line between the third solvent valve and the first solventvalve.

Preferably, the apparatus has a heating means to heat the apparatus andany process chemical contained therein.

In a preferred embodiment, the present invention is an apparatus forcleaning the interior of a process chemical distribution system,comprising:

a) a process line connected to a source of process chemical and adownstream process chemical use station, the process line having a firstprocess valve adjacent the source of process chemical and a secondprocess valve adjacent the process chemical use station to control thepassage of the process chemical through the process line;

b) a source of solvent capable of at least partially dissolving theprocess chemical, the source of solvent connected to a source of pushgas through a push gas valve;

c) a vent line connected to the process line, capable of receiving thesolvent and having a vent valve for controlling removal of solventthrough the vent line, the vent valve having upstream and downstreamorifices and a vent storage vessel controllably connected to the ventline adjacent the upstream orifice and adjacent the downstream orifice;and

d) a solvent delivery line connected to the source of solvent and to theprocess line, having an outlet which is coaxially aligned inside theprocess line to permit dispensing of solvent from the solvent deliveryline into the process line and having a first solvent valve forcontrolling the dispensing of solvent from the source of solvent throughthe solvent delivery line into the process line and having a secondsolvent valve adjacent the first solvent valve and a third solvent valveadjacent the process line and a source of purge gas is connected to thesolvent delivery line between the second and third solvent valve.

Preferably, the apparatus has a heating means to heat the apparatus andany process chemical contained therein.

Preferably, at least a portion of the apparatus is constructed of amaterial selected from the group consisting of stainless steel, Inconelalloy, titanium, Hastalloy alloy, Teflon plastic, quartz, glass andmixtures thereof.

The present invention is also a process of cleaning the interior of aprocess chemical distribution system having a process line connected toa source of process chemical and a downstream process chemical usestation, the process line having a process valve to control the passageof the process chemical through the process line; a source of solventcapable of at least partially dissolving the process chemical; a ventline connected to the process line, capable of receiving the solvent andhaving a vent valve for controlling removal of solvent through the ventline; and a solvent delivery line connected to the source of solvent andto the process line, having an outlet to permit dispensing of solventfrom the solvent delivery line into the process line and having asolvent valve for controlling the dispensing of solvent from the sourceof solvent through the solvent delivery line into the process line,comprising the steps of:

a) introducing a solvent for the process chemical into the process linethrough the solvent delivery line;

b) removing the solvent and the process chemical from the process linethrough the vent line;

c) repeating steps a) and b) until the process line has been cleaned.

Preferably, the outlet of said solvent delivery line is coaxiallyaligned inside the process line and the solvent is introduced into theprocess line through the coaxially aligned outlet.

Preferably, the process line is evacuated through the vent line prior tothe introduction of solvent into the process line.

Preferably, the solvent and the process chemical are removed using purgegas from a source of purge gas connected to the solvent delivery line.

Preferably, a source of vacuum connected to the vent line is used toassist in the removal of the solvent and the process chemical.

Preferably, at least a portion of the process chemical in the processline is initially returned to the source of process chemical before thesolvent is introduced into the process line.

Preferably, the process line is contacted with dry purge gas in step b)until the process line has been cleaned of solvent and process chemical.

BRIEF DESCRIPTION OF SEVERAL VIEWS OF THE DRAWINGS

FIG. 1 is a schematic illustration of a preferred embodiment of thepresent invention.

DETAILED DESCRIPTION OF THE INVENTION

The present invention is an apparatus and process of flushing and/orpurging a process chemical delivery line, system or source container toremove residual chemical from the line, system or container by means offlushing with gas, supercritical fluids, acids and/or liquid solvent.The present invention results in removal of low volatility or toxicchemical materials from delivery lines or chemical vapor depositionsystems or chemical refill systems when changing chemical sources,source containers, and for making connections or for system disassembly.The present invention provides the ability to do solvent, gas purge, andvacuum draw combinations in one apparatus. It also permits efficientremoval of multi-component chemicals from delivery lines without usingvacuum-pressure cycle purges only. The present invention also permitsthe use of suitable acids as the solvent when process lines containinsoluble contaminants such as metal oxides formed when process linesare exposed to the atmosphere and oxygen reacts with process chemical.

When a chemical source container is disconnected from a system, therecould be residual chemical in the line. This residual material mayremain in the line due to low volatility or wetting of the surface ofthe line. If the residual chemical material is air- ormoisture-sensitive, upon disassembly or disconnecting components, thedelivery system becomes contaminated. The residual chemical remaining indelivery lines may be incompatible with introduction of a new chemicalsource, or be reactive with the atmosphere. In addition, the operatormay be exposed to residual chemicals in the lines. Multi-componentchemicals, such as barium/strontium/titanate solvent blends (BST) andsimilar mixtures, may precipitate solid components, when only vacuum isused to clean the line. The present invention reduces or removes thesedifficulties.

Also, when chemical source containers, such as bubblers, are returned tothe manufacturer, there is a need to completely clean and flush thesource container prior to its being opened for further inspection andprocessing. The present invention provides an apparatus for thiscleaning process.

The main difficulty comes from chemicals whose vapor pressures are toolow to be effectively removed using standard vacuum/pressure cycle purgetechniques. This leads to increased particulation and operator exposureto process chemicals. Current designs are not integrated and result inlarge volumes of unpurged chemical in a refill system or process tool.

In a standard vacuum purge operation, the process chemical will not beeffectively removed from the system unless the vacuum pressure is belowthe vapor pressure of the chemical. Typically, the internal pressureseen when processing using a standard vacuum purge operation is anequilibrium average between the base pressure of the vacuum pump and thevapor pressure of the chemical. When the vapor pressure of the liquidchemical is below or near the base pressure of the vacuum source, thenlittle or no chemical removal takes place, and during exchange of thechemical supply vessel, the liquid chemical is exposed to the outsideenvironment.

Many of these compounds are oxygen or moisture sensitive and will createparticulate matter or are hazardous and become safety concerns if anoperator is exposed to the chemical fumes or to the byproducts of thereaction of the chemical with air. In some cases, pyrophoric materialsare used, and inadequate purging can lead to flammable situations. Inaddition, a mechanical cleaning of the internal surfaces of the processtool or process line can be accomplished through this apparatus whenused with supercritical fluids, such as CO₂.

This solvent purge manifold completely removes traces of processchemical from the delivery lines, regardless of chemical volatility, byintroducing a solvent suitable for the process chemical into the spaceimmediately downstream of the chemical supply vessel. Each chemical mayhave its own optimal solvent, for example,1,1,1,5,5,5-hexafluoro-2,4-pentanedionato copper (I)trimethylvinylsilane is most easily removed using trimethylvinylsilane,while trimethylphosphate can be removed using methanol or isopropylalcohol.

Alternatively, the "solvent" could be an acid for removal of metaloxides and other byproducts from the process lines that are notremovable with traditional solvents. An appropriate acid to be used inplace of or as the solvent of the process would be an acid selected forthe particular material to be removed while being sufficientlyunreactive with the materials of construction of the process lines andthe related hardware or apparatus.

The present invention can be used for valve post cleaning processes byusing the apparatus to inject solvent into the exposed areas of thevalve body. It can also be used as a mechanism for in-place cleaning ofthe source container that originally held the process chemical. Thisapparatus can also be used to insert solvent into the tool deliverysystem to permit flushing of direct liquid injection mass flowcontrollers and process chambers. Therefore, the process line of thepresent apparatus to which the solvent delivery line is attached orassociated may be near or attached to a source of process chemical(i.e., a bubbler or storage container), a downstream process chemicaluse station (i.e., a tool or reaction chamber), or a process chemicalcontrol device (i.e., mass flow controller or valve).

In a preferred embodiment, the present invention is a solvent purgemanifold, providing inlets for chemical solvent, an inert gas, vacuumsources and spent solvent and process chemical. The apparatus also usesa solvent source container, a solvent vent storage vessel, an inert gassource, a vacuum source, and a set of valves to direct the flow ofsolvent, inert gas, and vacuum in the correct sequence. Optionally, itmay contain a pump for the creation of supercritical fluids and meansfor heating the apparatus by resistance heat, infrared radiation,microwave or similar heating means (particularly for low volatilityprocess chemicals).

A key attribute of the solvent purge manifold is the internal coaxialline. This is used to direct the solvent into the valve of the processchemical source container that is being replaced (or alternatively canbe installed to face the valve leading to the delivery lines and/orprocess chamber). By directing the solvent into this area underpressure, a mechanical scrubbing aspect to the cleaning process isadded, ensuring complete chemical removal. This effect is amplifiedthrough the use of supercritical fluid injection.

The apparatus of the present invention is installed between the processchemical source container and the process chamber or delivery lines ofthe refill system, depending on its exact installation.

The general process sequence for the apparatus is as follows:

a) Valves are operated to push the process chemical back into theprocess chemical source container or into a suitable vent storagevessel.

b) Valves above and below the purge manifold are closed to isolate themanifold from the process chemical and the delivery lines or processtool/chamber.

c) Solvent is directed from the solvent source vessel into the wettedarea between the source of the chemical and the process tool throughvalves. This solvent dissolves any chemical adhering to the tube wallsthrough surface tension and moves it into the drain vessel when thesolvent is removed through pressurizing with inert gas, potentially withthe assistance of vacuum.

d) After the solvent is drained, the plumbing segment is vacuum/pressurecycle purged to remove traces of solvent. The solvent purge andvacuum/pressure cycles are repeated as many times as is necessary forcomplete chemical removal. The inert gas can be used to physically pushthe solvent out of the manifold with or without the use of vacuumapplied simultaneously to the input of the inert gas.

e) In the event a container cleaning is required, suitable piping can beinstalled to permit the direction of the solvent into the sourcecontainer for efficient and complete removal of the process chemicalfrom the source container.

An important feature of the apparatus includes the use of a coaxialcentral line for solvent chemical and inert gas flow from the solventdelivery line to the process line. This line is preferably mountedinside of a suitable stainless steel fitting and welded to preventatmospheric leakage. Alternatively, the coaxial line may be machined asone piece within the stainless steel fitting. Valves are located on thecoaxial inner solvent delivery line and on at least one end of thecoaxially outer process chemical line. Valves are also locatedimmediately above and below the process chemical line in order toisolate the solvent purge manifold from the process chemical containerand from the rest of the delivery line or process tool/chamber. By useof the apparatus of the present invention, one can increase the directedface velocity of the gas or liquid solvent to enhance the removalefficiency. The cavity surrounding the inner coaxial solvent deliveryline is scaled to match the cross sectional area of the outer coaxialtubing of the process line to minimize pressure and flow variations.

The apparatus is typically constructed of 316L stainless steel forultrapure chemical use, with suitable bellows or diaphragm valves placedon each port. Valve seat materials are selected based on theirreactivity with the process chemical and solvent to be used. Othermaterials, including other varieties of stainless steel, or exoticmaterials, (eg. Inconel, titanium, or Hastalloy, etc.) may be useddepending on the process chemical and solvent required. For use withselected corrosive materials, the use of appropriate non-metallicmaterials can also be implemented (eg. Teflon, quartz or glass).

The present invention provides an apparatus and process for removal oflow volatility or highly toxic compounds from the internal space of adelivery line or process tool or process chemical source container.These process chemicals include chemicals, such as:1,1,1,5,5,5-hexafluoro-2,4-pentanedionato copper(l)trimethylvinylsilane, tantalum pentethoxide,tetrakis(diethylamido)titanium, tetrakis(dimethylamido)titanium,dimethylaluminumhydride, trimethylphosphite, triethylphosphate,barium-strontium-titanium precursors, and other materials that havevapor pressures below what can be efficiently removed with a standardvacuum purge process.

A preferred embodiment of the present invention is illustrated inFIG. 1. A source container of solvent 10 is connected to a source ofpush gas through line 12 and push gas valve V₃. The push gas is apressurized high purity inert gas, such as; nitrogen, helium or argonused to push solvent through various process lines. The container 10 isfilled with additional solvent as necessary through line 14 and valveV₁₁. Solvent is dispensed from the container 10 through line 16, thirdsolvent valve V₁, line 18, first solvent valve V₂, line 24, secondsolvent valve V₄ and finally solvent delivery line 28, which ends in acoaxially internal discharge nozzle 32 inside process line 30. Solventdelivery line 28, including lines 24, 18 and 16, is also connected to asecond source of vacuum 22 through valve V₁₂, and line 20, as well as asource of purge gas 29, which is connected controllably to line 24through valve V₃ and line 26. A source of process chemical 36 isprovided in a suitable container, which in the electronics industry istypically a bubbler or a direct liquid injection device. The processchemical is delivered by the pressure of an inert gas 42 controllablydelivered through valve V₁₄ and line 40. As the inert gas 42 pressurizesthe source 36, process chemical is delivered through line 38 and firstprocess valve V₆ to process line 30. Normally, process line deliversprocess chemical through second process valve V₅ to a downstream processchemical use station or tool 34. When it is appropriate to clean outprocess line 30, such as during down time, changeout of the container36, maintenance of the system or change in the type of chemical beingutilized, it is necessary to remove residual process chemical from theprocess line 30. Initially, this is done through vent valve V₇ and ventline 44. Vent line 44 is controllably connected to a first source ofvacuum 52 either directly through vent valve V₉ having an upstreamorifice near the vent line 44 and a downstream orifice near the firstsource of vacuum 52. The vent line 44 may also be controllably connectedto the first source of vacuum 52 through line 46, valve V₈, vent storagevessel 48, valve V₁₀ and line 50, which connects to said first source ofvacuum 52. Alternatively, the vent line 44 may be connected to thesource of process chemical 36 via valve V₁₅ and line 54 so as to returnprocess chemical to source container 36. The operation of this solventpurge manifold system will be described in the ensuing example and testruns.

The following example demonstrates the apparatus of the presentinvention with reference to FIG. 1.

EXAMPLE

The objective of this experiment is to fill up the solvent purgemanifold with 1,1,1,5,5,5-hexafluoro-2,4-pentanedionato copper(I)trimethylvinylsilane (process chemical), and then to see how many cyclesof trimethylvinylsilane (solvent)-nitrogen-vacuum purges it will take toget all of the 1,1,1,5,5,5-hexafluoro-2,4-pentanedionato copper(I)trimethylvinylsilane out of the manifold.

The following is the test sequence to first charge and then clean theapparatus:

1. Open V₁₂, V₄, V₂ and V₇ to evacuate the system.

2. Close V₁₂, V₄, V₂ and V₇ to isolate components.

3. Open V₆, V₁₄ to charge purge manifold with1,1,1,5,5,5-hexafluoro-2,4-pentanedionato copper(I)trimethylvinylsilane.

4. Close V₆, V₁₄.

5. Open V₃, V₄, V₆ to push back1,1,1,5,5,5-hexafluoro-2,4-pentanedionato copper(I) trimethylvinylsilaneinto the vessel 36.

6. Close V₃, V₄, V₆.

Next the following steps are performed to flush out the residual processchemical from the manifold.

7. Open V₁₂ to evacuate up to the solvent purge manifold.

8. Close V₁₂.

9. Open V₁, V₁₃ to charge with trimethylvinylsilane (solvent) up to thesolvent purge manifold.

10. Open V₇, V₉ to evacuate the solvent purge manifold.

11. Close V₇, V₉.

12. Open V₂ and V₄ to introduce trimethylvinylsilane into the manifold.

13. Close V₂ and V₄.

14. Open V₃, V₄, V₇, V₈ and V₁₀ to remove the process chemical andsolvent from the system.

15. Repeat steps 7 to 14.

16. Observe evacuated solvent/process chemical for color change ofliquid.

Repeat until clear (absence of process chemical).

Test #1

1. Purge manifold was filled with process chemical.

2. Process chemical was pushed back into the source container of theprocess chemical.

3. Solvent was charged into the manifold.

4. Process chemical/solvent mixture color was observed.

5. This process chemical/solvent liquid was vacuum/nitrogen purged fromthe system.

6. Flush repeated.

Observations:

On the first flush, the liquid looked light green (indicating residualprocess chemical). On the second flush the liquid looked colorless/clear(indicating the absence of process chemical).

Test #2

This test was done exactly the same as Test #1 to show reproducibility.Results were the same as Test #1. The second flush liquid looked clearand colorless (indicating an absence of process chemical).

Test #3

For this test, process chemical was charged into the purge manifold andallowed to sit for 90 minutes.

The flush procedure was repeated as in Tests #1 and #2 above.

Result:

On the second flush, the liquid looked clear and colorless (indicatingan absence of process chemical).

Test #4

On this test, the objective was to see how many flushes of solvent itwould take to do the following:

The solvent purge manifold was charged with process chemical and thechemical was left in the manifold. Therefore, the process chemical wasnot pushed back into the source container for process chemical.

The first flush looked very green-much darker than Tests #1 through #3(indicating presence of process chemical).

The second flush showed a very barely noticeable tint of green in thesolvent (indicating reduced presence of process chemical).

The third flush looked clear and colorless (indicating an absence ofprocess chemical).

Conclusion:

If the process solvent is not pushed back into the process chemicalsource container, but rather is left up the solvent purge manifold, ittook one additional flush of solvent to clear the system.

Additional Observation:

The valve on the process chemical source container that was previouslycontaminated with chemical looked clean. Looking into the valve cavity,no visible contamination was observed.

The use of the present invention provides several important benefits: a)it permits the use of a vacuum/pressure cycle purge to remove all tracesof the remaining solvent from the process chemical lines, since thatcould pose a process or health hazard; b) it utilizes a special coaxialdelivery line that provides pressurized solvent to permit the cleaningof the valve volume that cannot be easily reached by other methods; c)it is designed to minimize the volume of solvent required for purging(current methods require purging entire legs of plumbing and arecurrently ineffective at complete removal in all cases); d) it providesfor the existence of both a solvent source and solvent retrieval vesselor vent storage vessel, isolating contaminated chemical from the rest ofthe system, and permitting off-line replacement of these vessels withoutincurring further downtime; e) it provides a means for post processcleaning of the valve body during a chemical fill or vessel cleaningoperation at the chemical supply manufacturer; f) it permits theintroduction of supercritical fluids into the process system foradditional cleaning capabilities; g) it provides a method to introducesolvent cleaning to the process chamber and/or mass flow controller andvaporizers in the event of contamination or plugging; and h) theinvention can also be used as a means for introducing solvent into theprocess chemical source container for container cleaning purposes.

The invention can also be used in a inert gas purge only mode to improvethe removal or rapid evaporation of residual higher volatilitycompounds, such as triethylphosphate or tetraethylorthosilicate, toimprove throughput of filling and cleaning processes

The present invention has been set forth with regard to one or morepreferred embodiments, but the full scope of the present inventionshould be ascertained from the claims which follow.

We claim:
 1. Apparatus for cleaning the interior of a process chemicaldistribution system, comprising:a) a process line connected to a sourceof process chemical and a downstream process chemical use station, saidprocess line having a process valve to control the passage of saidprocess chemical through said process line; b) a source of solventcapable of at least partially dissolving said process chemical; c) avent line connected to said process line, capable of receiving saidsolvent and having a vent valve for controlling removal of solventthrough said vent line; and d) a solvent delivery line connected to saidsource of solvent and to said process line, having an outlet which iscoaxially aligned inside said process line to permit dispensing ofsolvent from said solvent delivery line into said process line andhaving a solvent valve for controlling said dispensing of solvent fromsaid source of solvent through said solvent delivery line into saidprocess line.
 2. The apparatus of claim 1 wherein said process valve isa first process valve adjacent said source of process chemical and asecond process valve adjacent said process chemical use station and saidsolvent delivery line is connected to said process line between saidfirst and second valve.
 3. The apparatus of claim 1 wherein a source ofpurge gas is controllably connected to said solvent delivery line. 4.The apparatus of claim 3 wherein said solvent delivery line has a firstsolvent valve adjacent said source of solvent and a second solvent valveadjacent said process line and said source of purge gas is controllablyconnected to said solvent delivery line between said first and secondsolvent valve.
 5. The apparatus of claim 4 wherein said solvent deliveryline has a third solvent valve between said first solvent valve and saidsource of solvent.
 6. The apparatus of claim 5 wherein a second sourceof vacuum is controllably connected to said solvent delivery linebetween said third solvent valve and said first solvent valve.
 7. Theapparatus of claim 1 wherein said vent line is controllably connected toa first source of vacuum.
 8. The apparatus of claim 7 wherein a ventstorage vessel is controllably connected to said vent line between saidprocess line connection and said first source of vacuum.
 9. Theapparatus of claim 8 wherein said vent valve has upstream and downstreamorifices and said vent storage vessel is controllably connected to saidvent line adjacent said upstream orifice and adjacent said downstreamorifice.
 10. The apparatus of claim 1 wherein said source of solvent isconnected to a source of push gas through a push gas valve. 11.Apparatus for cleaning the interior of a process chemical distributionsystem, comprising:a) a process line connected to a source of processchemical and a downstream process chemical use station, said processline having a first process valve adjacent said source of processchemical and a second process valve adjacent said process chemical usestation to control the passage of said process chemical through saidprocess line; b) a source of solvent capable of at least partiallydissolving said process chemical, said source of solvent connected to asource of push gas through a push gas valve; c) a vent line connected tosaid process line, capable of receiving said solvent and having ventvalve for controlling removal of solvent through said vent line, saidvent valve having upstream and downstream orifices and a vent storagevessel controllably connected to said vent line adjacent said upstreamorifice and adjacent said downstream orifice; and d) a solvent deliveryline connected to said source of solvent and to said process line,having an outlet which is coaxially aligned inside said process line topermit dispensing of solvent from said solvent delivery line into saidprocess line and having a first solvent valve for controlling saiddispensing of solvent from said source of solvent through said solventdelivery line into said process line and having a second solvent valveadjacent said first solvent valve and a third solvent valve adjacentsaid process line and a source of purge gas is connected to said solventdelivery line between said second and third solvent valve.
 12. Theapparatus of claim 1 wherein at least a portion of the apparatus isconstructed of a material selected from the group consisting ofstainless steel, Inconel alloy, titanium, Hastalloy alloy, Teflonplastic, quartz, glass and mixtures thereof.